Issue 18, 2020

Scaling of deterministic lateral displacement devices to a single column of bumping obstacles

Abstract

We describe a deterministic lateral displacement (DLD) for particle separation with only a single column of bumping features. The bifurcation of fluid streams at obstacles is not set by the “tilt” of columns with respect to macroscopic current flow, but rather by the fluidic resistances for lateral flow at each obstacle. With one column of 14 bumping features and corresponding inlet/outlet channels, the single-column DLD can separate particles with diameters of 4.8 μm and 9.9 μm at 30 μL min−1, with an area of only 0.37 mm × 1.5 mm (0.55 mm2). The large-cell output contains over 99% of the 9.9 μm particles and only 0.2% of the 4.8 m particles. The throughput per area of 54 μL min−1 per mm2 represents a 10× increase over previous selective harvesting reports for microfluidic devices in a similar particle size range.

Graphical abstract: Scaling of deterministic lateral displacement devices to a single column of bumping obstacles

Article information

Article type
Paper
Submitted
03 Jun 2020
Accepted
23 Jul 2020
First published
27 Jul 2020

Lab Chip, 2020,20, 3461-3467

Scaling of deterministic lateral displacement devices to a single column of bumping obstacles

W. Liang, R. H. Austin and J. C. Sturm, Lab Chip, 2020, 20, 3461 DOI: 10.1039/D0LC00570C

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